RU2809414C1 - Method for installing stemming in well - Google Patents

Abstract

FIELD: mining.

SUBSTANCE: drilling and blasting in rocks used in various industries that use blasting in rock masses, in particular in development of minerals by surface mining. The method of installing a stemming in a well involves lowering into the well to the depth of a massif with intense fracturing a stemming made in the form of an inclined solid cylinder, the diameter of which is commensurate with the diameter of the well, and the upper and lower ends are bevelled, parallel to each other, equal and have an ellipse in cross-section. After that, the stemming is secured to a supporting structure located above the wellhead using a flexible connection attached to the edges of the upper end of an inclined solid cylinder with the side end up, made rounded in accordance with the well wall with rigid rod-shaped elements with the length of 0.1–0.15 times the well diameter evenly placed along its middle part. The upper and the lower ends of the inclined solid cylinder in cross-section have an ellipse with a major axis equal to 1.3–1.5 times the well diameter. Then the inclined solid cylinder is pulled by a flexible connection towards the wellhead until rigid rod-shaped elements are introduced into the rock, secured to the supporting structure and part of the well is filled from its upper end to the day surface with inert material.

EFFECT: improved efficiency of drilling wells by increasing reliability of adhesion between the stemming and the walls of the well.

1 cl, 2 dwg, 1 ex

Description

The invention relates to mining, to the field of blasting
in rocks and can be used in various industries that use blasting in rock masses, in particular in open-pit mining.

A suspended well stopper is known, made in the form of a solid cylinder, the diameter of which is commensurate with the diameter of the well, and the upper
and the lower ends are beveled, parallel to each other, equal and have an ellipse in cross-section, which is lowered into the well to the depth of a massif with intense fractures using a flexible connection attached to the edges of the upper end of a solid cylinder, after which it is fixed to a support structure located above the wellhead (patent RU 2419063 C1, 05/20/2011, IPC F42D 1/08 (2006.01), bulletin No. 14).

The disadvantage of the known technical solution is the low efficiency of drilling the well due to the small contact area of the drilling with the walls of the well and the lack of reliable adhesion between them due to the fact that the drilling is made in the form of a solid cylinder, the upper and lower ends of which are beveled parallel to each other and have cross-section of an ellipse, the geometry of which determines their insufficient contact area to ensure reliable adhesion of the upper and lower ends of the cylinder with the walls of the well, since the contact surfaces are exclusively the outer extreme points of the beveled ends located on the major axis of the ellipses.

There is a well-known suspended borehole stopper, taken as a prototype, placed in a well at the depth of a massif with intense fracturing, made
in the form of an inclined solid cylinder, the diameter of which is commensurate with the diameter of the well, and the upper and lower ends are beveled, parallel to each other, equal and have an ellipse in cross-section, after which it is fixed on a supporting structure located above the wellhead using a flexible connection attached to the edges of the upper the end of an inclined solid cylinder (patent RU 2768270 C1, 03/23/2022, IPC F42D 1/08 (2006.01), F42D 1/18 (2006.01), F42D 3/04 (2006.01), Bulletin No. 9).

The prototype has a significant drawback, which is the ineffectiveness of the wellbore due to the unreliable adhesion of the beveled edges of the upper and lower ends of the inclined solid cylinder with the walls of the well due to the fact that the contact of their surfaces occurs along them along the line of the beveled edge without stable penetration into the rock and reliable fixation in it, namely, resting with the beveled edge of the upper end against the wall of the well, mating with it, while the beveled edge of the lower end rests against the opposite wall of the well, which is insufficient to ensure effective stable jamming of the stem in the well, as a result of which sliding of the edges occurs at the moment of explosion beveled ends of the bottoming along the wall of the well and throwing it out of the well without resistance to the upward movement of gaseous detonation products, which leads to a decrease in the efficiency of the bottoming of the well, as a result of which the technical result is not achieved.

The technical result of the claimed invention is to increase the efficiency of drilling wells by increasing the reliability of adhesion of the drilling to the walls of the well.

This technical result is achieved by the fact that in the method of installing a stopper in a well, which includes lowering into the well to a depth a massif with intense fracturing of the stope, made in the form of an inclined solid cylinder, the diameter of which is commensurate with the diameter of the well, and the upper and lower ends are beveled parallel to each other, are equal and have an ellipse in cross-section, after which it is fixed to a support structure located above the wellhead using a flexible connection attached to the edges of the upper end of an inclined solid cylinder, according to the invention, an inclined solid cylinder, upper and lower ends are lowered into the well to a given depth which in cross-section has an ellipse with a major axis equal to 1.3 - 1.5 of the well diameter, the side end up, made rounded in accordance with the well wall with rigid rod-shaped elements evenly placed along its middle part with a length of 0.1 - 0.15 of the well diameter, after whereby an inclined solid cylinder is pulled by a flexible connection towards the wellhead until rigid rod-shaped elements are introduced into the rock, fixed to a supporting structure, and part of the well is filled from its upper end to the day surface with inert material.

The claimed invention is illustrated by drawings, where figure 1 schematically shows a stopper installed in a well in the working position; in fig. 2 – layout diagram of an inclined solid cylinder installed in the working position in the well (top view).

The inventive method of installing a stopper in a well is carried out by performing the following operations.

Before installing the stopper in the well, drilling operations are carried out, the wells are charged with explosive 1 and a detonating network 2 is installed, after which a massif with intense fracturing is lowered into the well to the depth (secondary fracturing is the result of the impact of the previous explosion on the rock with propagation deep into the massif by 1. 5-3.0 meters) of the stope, made in the form of an inclined solid cylinder 3, for example, part of a rounded log, the diameter of which is commensurate with the diameter of the well, and the upper and lower ends are beveled at an angle and parallel to each other, equal and have an ellipse in cross-section with major axis L _b.o. equal to 1.3 - 1.5 of the well diameter, using a flexible connection, for example, two polypropylene twines 4 and 4', attached at one end to the longitudinally opposite edges of the upper end of the inclined solid cylinder 3, with the free ends of the polypropylene twines 4 and 4' are in the hands of the operator.

An inclined solid cylinder 3 is lowered with its side end 5 up, made rounded in accordance with the wall of the well with rigid rod-shaped elements 6 evenly placed along its middle part, for example, construction nails, length _L. 0.1 - 0.15 of the well diameter, for uniform penetration into the rock, increasing adhesion with it and ensuring the stability of the position of the inclined solid cylinder 3 in the well, while eliminating the possibility of its deviation (shift, rotation) in the cross section of the well from the working position under the weight of the inert material placed above it.

When a given depth is reached, the inclined solid cylinder 3 is pulled by the flexible connection 4 and 4' towards the wellhead until the rigid rod-shaped elements 6 are introduced into the rock and completely jammed in the well, after which it is fixed on the supporting structure 7, made, for example, in the form of a thin a block longer than the wellhead, fixing the free ends of polypropylene twines 4 and 4' on it.

The essential features of the stemming noted above make it possible to ensure its unhindered lowering into the well to a technologically specified depth, to increase the reliability of installing the stemming in the working position in the well, by increasing the contact area and increasing the reliability of adhesion of the stemming to the walls of the well, as well as to ensure uniform coverage of the entire cross-sectional area well, while eliminating the possibility of inert material spilling inside the well and getting it on the upper end of the well charge, to create a reliable and stable adhesion of the inclined solid cylinder 3 with the walls of the well, reinforced by additional adhesion of the rigid rod-shaped elements 6 with the rock, which allows for increased efficiency of the well bottoming .

After installing the inclined solid cylinder into the working position, part of the well from its upper end to the day surface is filled with inert material 8, for example, small rock or drilling debris, to seal the gaps between the cylinder 3 and the well wall and increase the friction force between them, as well as increase efficiency of installation of a stopper in a well.

After the detonation of the explosive charge in the well, the pressure of the expanding gaseous detonation products increases and they act on the lower end of the inclined solid cylinder 3, which leads to a shift towards the wellhead, during which the penetration of its side ends deep into the rock increases, which entails represents a violation of the integrity of the well walls, an increase in cracks and the formation of new ones, while the fine rock located on top of the inclined solid cylinder 3 begins to disperse throughout the entire area of contact of the face with the walls of the well, filling the cracks, thereby compacting the rock in this area and increasing the friction between the face and the walls well, thereby increasing its resistance to ejection from the well, while the rigid rod-shaped elements 6 act as locking elements of the stem in compacted rock due to their internal friction and adhesion to it, which increases the resistance to sliding of the rounded side end along the well wall, thereby ensuring locking detonation products in the well until the rock mass is completely destroyed, increasing the efficiency of well completion.

Example of a specific application. Management Company "Kuzbassrazrezugol" at site No. 2 of the branch "Taldinsky Coal Mine" carried out tests to install a stopper in a well according to the proposed method.

Characteristics of the blasted block: name of rocks - sandstone with a strength of f 8.5 on the prof. scale. Protodyakonova M.M.; well depth up to 17 m; water cut up to 4 m.

To implement the proposed method of installing a stopper in a well, the block was drilled using a DMLJ drilling rig No. 63 with a well pattern of 6 m×6 m, a depth of 15 m and a well diameter of 215.9 mm. The wells were drilled vertically, the total number of wells was 20.

To identify the achievement of the stated technical result in 20 wells with a diameter of 215.9 mm, the method of installing a stopper in the well was carried out as follows.

After completion of the drilling work, the well was loaded with explosives and an explosive network was installed.

Next, the inclined solid cylinder 3 was lowered to a given depth using polypropylene twines 4 and 4' attached to its upper end according to the inventive method 3 described above, after which it was jammed and fixed to the supporting structure. After installing the inclined solid cylinder 3 in the working position, part of the well from the upper end of the inclined solid cylinder to the day surface was filled with drill fines.

After the explosion, an analysis of the granulometric composition of the blasted rock mass was carried out, during which it was found that the quality of crushing the rock was determined to be optimal, which indicates that the combination of essential features of the proposed method of installing a stopper in a well ensures the achievement of a technical result - increasing the efficiency of stopping a well .

Claims (1)

A method of installing a stopper in a well, which includes lowering into the well to the depth of a massif with intense fracturing a stopper made in the form of an inclined solid cylinder, the diameter of which is commensurate with the diameter of the well, and the upper and lower ends are beveled, parallel to each other, equal and have an ellipse in cross-section, after whereby it is fixed to a support structure located above the wellhead using a flexible connection attached to the edges of the upper end of an inclined solid cylinder, characterized in that an inclined solid cylinder is lowered into the well to a given depth, the upper and lower ends of which in cross-section have an ellipse with a larger an axis equal to 1.3–1.5 of the borehole diameter, with the side end facing upwards, made rounded in accordance with the borehole wall with rigid rod-like elements evenly placed along its middle part with a length of 0.1–0.15 of the borehole diameter, after which the inclined solid cylinder is pulled up by the flexible connection towards the wellhead before introducing rigid rod-shaped elements into the rock, they are fixed on the supporting structure and part of the well is filled from its upper end to the surface with inert material.